Murray State's Digital Commons Murray State Theses and Dissertations Graduate School 2021 MALES OF THE WOLF SPIDER RABIDOSA RABIDA USE TWO MECHANISMS TO STUN FEMALES DURING COPULATION Daniel Schoenberg Follow this and additional works at: https://digitalcommons.murraystate.edu/etd Part of the Biology Commons, Ecology and Evolutionary Biology Commons, and the Physiology Commons Recommended Citation Schoenberg, Daniel, "MALES OF THE WOLF SPIDER RABIDOSA RABIDA USE TWO MECHANISMS TO STUN FEMALES DURING COPULATION" (2021). Murray State Theses and Dissertations. 212. https://digitalcommons.murraystate.edu/etd/212 This Thesis is brought to you for free and open access by the Graduate School at Murray State's Digital Commons. It has been accepted for inclusion in Murray State Theses and Dissertations by an authorized administrator of Murray State's Digital Commons. For more information, please contact msu.digitalcommons@murraystate.edu. MALES OF THE WOLF SPIDER RABIDOSA RABIDA USE TWO MECHANISMS TO STUN FEMALES DURING COPULATION A Thesis Presented to the Faculty of the Department of Biology Murray State University Murray, Kentucky In Partial Fulfillment of the Requirements for the Degree of Master of Biology by Daniel Schoenberg May 2021 iii ACKNOWLEDGEMENTS Funding for this project was provided by the Students United in Preserving, Exploring and Researching Biodiversity (SUPERB) scholarship and the Watershed Studies Institute (WSI). Without the financial support provided by these programs this research could not have been conducted. I would like to thank Dr. Terry Derting for allowing me access to her property for spider collections. I also thank Hancock Biological Station, Dr. Michael Flinn, Angie Hayden and Dr. David White for allowing me access to and teaching me to use the Scanning Electron Microscope and providing lab space during the summer of 2020. I would like to thank Dr. Chris Mecklin for help with the statistical analyses. Lastly, I would like to thank my committee and fellow graduate students for all the helpful comments, suggestions, and general scientific conversations throughout the years this project was being conducted. I am particularly grateful for Dr. Laura Sullivan-Beckers and Dr. Oliver Beckers for their mentorship throughout my time at Murray State University and the start of my career in academia. iv ABSTRACT The differences in energetic input between the sexes required to produce gametes translates to the differences in reproductive behavior and overall mating systems seen in a species. Females generally produce a few energetically and resource expensive eggs and typically choose a high-quality suitor to ensure she has high quality offspring. In contrast, males produce abundant energetically cheap sperm and attempt to fertilize as many eggs as possible in as many females as possible. Both sexes are trying to maximize their inclusive fitness, but the dichotomy of interests can lead to sexual conflict and perhaps extreme or unusual behaviors such as sexual cannibalism or manipulation of a mate. However, occasionally, the sexes evolve to help increase each other’s fitness during mating, known as sexual cooperation. In spiders, sexual cannibalism of the male by the female is a common occurrence and males of some species have evolved behavioral, morphological, and physiological adaptations to avoid being cannibalized during courtship and copulation. Female Rabidosa rabida, a wolf spider, attack their male partners often during the courtship and copulation process but can be left in a quiescent, or stunned, state post-copulation where they remain unresponsive to external stimuli after the male moves away. Behavioral and microscopy studies with other spiders suggest the quiescent state could be induced by a male produced pheromone from cuticular structures on his legs (transferred by either direct contact or volatile transmission), a chemical in the male ejaculate transferred during insemination, or a component of the male’s venom that he injects in the female. Using v R. rabida, I investigated proximate and ultimate questions about male induced female quiescence to avoid sexual cannibalism where I used scanning electron microscopy (SEM), mating trials with modified/ablated males, male homogenate trials, and gas chromatography-mass spectrometry (GC-MS). Specifically, I aimed to locate the organ of compound production (SEM and mating trials), to determine whether the compound was transferred directly or if it was airborne (male homogenate trials), and to identify the compound (GC-MS). I found R. rabida wolf spiders have cuticular structures on their legs that are presumed to be associated with semiochemical emitting organs. Males likely use these organs to induce a quiescent state in their female mates, and females attack the males less often when quiescent. I also found a variety of lipids, hormones, fatty acids, and other hydrocarbon molecules from the two sexes at different life stages with GC-MS. The compound in question was not identified. vi Table of Contents Acknowledgements………………………………………………………………………………...iii Abstract………………………………………………………………………………………………..…iv Table of Contents…………………………………………………………………………………….vi List of Figures…………………………………………………………………………………………..vii List of Tables……………………………………………………………………………………………viii Introduction and Review………………………………………………………………………….1 Collection Methods………………………………………………………………………………….17 Scanning Electron Microscope Methods…………………………………………….…….18 Mating Trial Methods……………………………………………………………………………….20 Homogenate Trial Methods…………………………………………….………………………..26 Gas Chromatography-Mass Spectrometry Analysis Methods……..…………….30 Scanning Electron Microscope Results………………………………………………………32 Mating Trial Results……………………………………………………..……………………………33 Homogenate Trial Results………………………………………………………..……………….38 Gas Chromatography-Mass Spectrometry Analysis Results……………..……….38 Discussion…………………………………………………………………………………………………39 Literature Cited…………………………………………………………………….………………….59 Figures and Tables…………………………………………………………………………………….66 vii LIST OF FIGURES FIGURE 1. Spider ablations for the mating trials (Obj. 2 methods).………..…………….…..66 2. Scanning electron micrographs (Obj. 1).………..…………….…………………………..67 3. Older females became quiescent less (2019 preliminary data)………………...68 4. Mean latency to courtship (Obj. 2).………..…………….……………………………..…..69 5. Mean duration of courtship (Obj. 2).………..…………….………………..………………70 6. Percentages of mating pairs (Obj. 2).………..………………………………………...……71 7. Mean copulation durations (Obj. 2).………..…………….…………………….…………..72 8. Percentages of females in quiescence (Obj. 2).………..…………….……….………..73 9. Mean female quiescence duration (Obj. 2).………..…………….…………..………….74 10. Percentage of females attacking males (Obj. 2).………..…………….…….……….75 11. Mean female attacks (Obj. 2).………..……………………………………………………….76 12. Percentage of quiescent females (Obj. 3).…………………………………….………..77 13. Mean female quiescence duration (Obj. 3).…………………………………………...78 viii LIST OF TABLES TABLE 1. Cannibalisms pre- and post-copulation (Obj. 2).………..…………….……………..79 2. Gas Chromatography-Mass Spectrometry results (Obj. 4)……………………….79 1 INTRODUCTION Adults of some sexually reproducing animals are under selection to maximize evolutionary fitness. Direct fitness is quantified by the number of offspring produced, while indirect fitness includes the number of offspring produced by the individual’s offspring or related individuals. The sexes can differ in how each can maximize their inclusive (direct + indirect) fitness which begins at the cellular level and the energetic input to produce gametes – eggs and sperm (Andersson 1994). Anisogamy is the dichotomy between egg and sperm size that leads to females producing a limited quantity of eggs and males producing large quantities of sperm (Andersson 1994). Female eggs are more energetically expensive to produce because they are larger and contain DNA, lipids, proteins, and carbohydrates needed for developing offspring (Andersson 1994). Male sperm are less energetically expensive to produce because they only contain DNA from the sire and just enough energy stores to travel to the egg, thus allowing them to be very small (Andersson 1994). This key sexual difference, carries over into reproductive behavior, including courtship and mating where the motivations of the sexes diverge. In most animal species, females are selective about the males that fertilize their expensive eggs, while males compete to fertilize as many eggs (in as many females) as they can with their abundant sperm (Andersson 1994). In most cases when animals reproduce, both individuals increase their lifetime reproductive success and evolutionary fitness even if their optimal choice of the quality or quantity of mates was not achieved (Andersson 1994). In the case that both individuals’ reproductive success 2 increases, the sexes are cooperating to increase fitness. In some species, males have even evolved mating strategies to benefit their female partners either directly or indirectly. These strategies usually involve the male transferring chemicals or nutrients to the female that result in an increased number of offspring, increased vitality of the offspring, or increased vitality of the female (butterflies: Andersson et al. 2000, Andersson et al. 2003, field crickets: Wagner et al. 2001, Wagner & Harper 2003). Using female G. lineaticeps, a field cricket, in a series of single and recurring mating trials with either one male (single mating control and repeated mating treatment) or multiple males (multiple mating
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